Lifibrol is a new lipid-lowering drug which lowers cholesterol to an extent in the order of magnitude of the statins. The mechanism of action of this compound is different from the one of statins but remains unknown. The current study will investigate the mechanism of action using stable-isotope turnover methods. The study will be done in healthy male volunteers.

Elevated lipoprotein concentrations are a major risk factor for the development of atherosclerotic cardiovascular disease. Effective reduction of low density lipoprotein (LDL)-cholesterol concentrations has been shown to greatly reduce this risk. The most widely used lipid-lowering agents are the 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors (statins), which have been shown to reduce morbidity and mortality from coronary heart disease (CHD) in large prospective clinical trials. However, despite significant LDL-C reduction approximately 70% of the events are still not avoided and the search for improved or alternative lipid-modifying drug therapies continuous. HDL-C has been addressed as a potential modifiable target for decreasing this residual risk, since a low HDL-C concentration is an acknowledged independent risk factor for CHD. However, recent studies showed that an increase in HDL-C concentrations was surprisingly not associated with a decrease in atherosclerosis, but with a possible increase. Therefore it seems that not the concentrations of HDL-C should be targeted but HDL function in reverse cholesterol transport.

Lifibrol is a lipid-modifying drug which has been shown to improve HDL particle flux via increased apoA-I production, while not having HDL-raising properties. Furthermore, it decreases dose-dependently LDL-C by up to 40%. It is of major interest to clarify the, apparently unique, mechanisms of action of a compound, whose LDL-lowering effects are comparable in magnitude to the ones of statins.

The mechanisms of lifibrol's LDL-lowering effects are not completely clarified. There is evidence suggesting that it increases hepatic LDL receptor expression by a sterol-independent mechanism, i.e. not through a reduction in cholesterol synthesis, the mechanism of action of statins. ApoB turnover studies have indicated that increased catabolism of LDL rather than a decrease in hepatic apoB production may be responsible for its cholesterol-lowering effects. Since apoB metabolism and cholesterol synthesis are closely related, we designed a study to investigate the effects of lifibrol on the metabolism of apoB-100-containing lipoproteins and on endogenous sterol synthesis in parallel, using stable isotope methods. In addition, since lifibrol may inhibit cholesterol synthesis at steps earlier than HMG-CoA reductase, we investigated [13C]acetate catabolism analyzing 13CO2 appearance in breath. The HMG-CoA-reductase inhibitor pravastatin was used as comparator, since its mode of action is well characterized. The principle questions addressed were (i) whether lifibrol exerts its cholesterol-lowering effects through decreased synthesis/enhanced catabolism of apoB-100-containing lipoproteins or through inhibition of sterol de novo synthesis and (ii) whether these effects are interrelated.

Eligibility

Ages Eligible for Study:

18 Years to 35 Years (Adult)

Sexes Eligible for Study:

Male

Accepts Healthy Volunteers:

Yes

Criteria

Inclusion Criteria:

male volunteers

18 to 35 years old

good clinical condition

normal eating habits

mental abilities to be able to understand the study procedures

written informed consent

Exclusion Criteria:

relevant pathological findings in the baseline examination

known allergic predisposition

concomitant drugs

alcohol or nicotine abuse

participation in other clinical trials in the last 30 days

Contacts and Locations

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Please refer to this study by its ClinicalTrials.gov identifier: NCT01057654